CDMA

CDMA

CDMA

CDMA

(Code Division Multiple Access) A method for transmitting multiple digital signals simultaneously over the same carrier frequency (the same channel). Although used in various radio communications systems, the most widely known application of CDMA is for cellphones. As of 2011, there were more than 500 million CDMA cellular users worldwide, with more than half in Asia. Verizon and Sprint are CDMA carriers in the U.S., while TELUS uses CDMA in Canada. Qualcomm designs the chips for the CDMA air interface. See IS-95 and CDMA2000.

CDMA provides up to 10 times the calling capacity of earlier analog networks (AMPS) and up to five times the capacity of GSM systems. CDMA is also the basis for the WCDMA and HSPA 3G technologies used by GSM carriers (see WCDMA and HSPA).

Spread Spectrum Unlike GSM and earlier digital systems, both of which use TDMA to divide the channel into time slots, CDMA's spread spectrum overlaps every transmission on the same carrier frequency by assigning a unique code to each conversation. Each voice conversation uses the full bandwidth simultaneously, and the often-used analogy is the ability to detect one's own language in a room full of people speaking other languages.

After the speech codec converts the caller's voice to digital, CDMA spreads the digital stream over the full 1.25 MHz bandwidth of the channel with a unique coding pattern. The rate of the spreading signal is known as the "chip rate," as each bit in the spreading signal is called a "chip," with no relation at all to an integrated circuit chip. Each bit of a conversation is multiplied into 128 coded bits, giving the receiving circuit an enormous amount of data it can average just to determine the value of a single bit when decoding the signal.

How the Technology Works

The following illustration, which was created with the assistance of Klein Gilhousen, co-inventor of CDMA, shows how bits are encoded at the base station and decoded in the cellphone. A single bit example is used to take you through the Boolean math.

Transmitting from the Base Station Each voice conversation is compressed with a vocoder. The output is doubled by a convolutional encoder that adds redundancy for error checking. Each bit from the encoder is replicated 64 times and exclusive OR'd with a Walsh code that is used to identify that call from the rest.

The output of the Walsh code is exclusive OR'd with the next string of bits (PN sequence) from a pseudo-random number generator, which is used to identify all the calls in a particular cell's sector. At this point, there is 128 times as many bits as there were from the vocoder's output. All the calls are combined and modulated onto a carrier frequency in the 800 MHz range.

Follow the Single Bit Example

This exclusive OR truth table shows you the Boolean algebraic rules to prove the single bit example in the illustrations above. The example bit is a 1, and the Walsh and PN codes are 0.

Receiving at the Cellphone The received frequencies are quantized into bits ("chips") by the analog-to-digital converter (ADC). The output is run through the Walsh code and PN sequence correlation receiver to recover the transmitted bits of the original signal. When 20 milliseconds of voice data are received, a Viterbi decoder corrects the errors using the convolutional code. The Viterbi output goes to the vocoder and digital-to-analog converter (DAC), which decompresses the bits and turns them back into waveforms (sound).

Follow the Single Bit Example

This exclusive OR truth table shows you the Boolean algebraic rules to prove the single bit example in the illustrations above. The example bit is a 1, and the Walsh and PN codes are 0.

Follow the Single Bit Example

This exclusive OR truth table shows you the Boolean algebraic rules to prove the single bit example in the illustrations above. The example bit is a 1, and the Walsh and PN codes are 0.

China is one of the world's fastest growing telecommunications markets, and Ericsson is pleased to further strengthen our market leadership in China through this cooperation with China Unicom in CDMA, which also laid a solid foundation for the migration to 3G," said Jan Malm, president of Ericsson (China) Company Ltd.

The success of TOMRA's reverse vending solution is a clear example of how the Kyocera 200 Module utilizes 3G CDMA technology to deliver advanced communications for M2M applications," said Dean Fledderjohn, general manager of Kyocera Wireless Corp's M2M business segment.

CDMA 450 is a standard for use in countries transitioning to digital wireless service from Nordic Mobile Telephone (NMT) 450 analogue service, and in countries advocating universal access for voice and data.

We believe CDMA 450 shows great promise for the future, not only for existing voice services, but also for new data services businesses and consumers demand," said Valery Molchanov, chief executive officer, UralWestcom.

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